KR101647393B1 - Fresh Water Supply System Using Flow Controller - Google Patents

Abstract

A flow control fresh water supply system is disclosed. The present invention provides a system for sterilizing and supplying water to a ship, the system comprising: a fresh water tank for storing fresh water supplied from an outside of the ship or an internal water tank of the ship; And a flow rate controller for controlling the flow rate of fresh water supplied to the fresh water tank.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flow control system,

The present invention relates to a flow rate control fresh water supply system, and more particularly, to a flow rate control fresh water supply system, in which a flow rate of clean water supplied from an outside of a ship or a water purifier in a ship is constantly controlled, And to a flow control fresh water supply system capable of storing and supplying fresh water.

Fresh water is required for equipment cooling on boats, boiler feed water, bath and laundry, and these fresh water can be supplied and stored from the land during berths, or stored in low pressure evaporation type tide It produces and stores fresh water through the machine and supplies it to the ship.

The low-pressure evaporative water cleaner uses the principle of lowering the boiling point of the liquid as the pressure is lowered. It lowers the pressure inside the water purifier and produces fresh water from seawater by using the jacket water or boiler steam, which is the remaining heat source of the engine .

In the case of a marine structure without a propulsion main engine unlike a ship having a propulsion engine itself, the load fluctuation of a plurality of installed generator engines is so severe that the amount of cooling water produced by the waste heat of the generator engine is not constant, It is difficult to apply a low-pressure evaporative water fresher making fresh water.

Instead, reverse osmosis type reverse osmosis (reverse osmosis type) regenerators are provided for applying reverse osmosis pressure to the semipermeable membrane to forcibly convert seawater to fresh water.

The reverse osmotic pressure regulator is widely used in large plant facilities and desalination plants. When the concentration of raw water is high or when a large amount of raw water is to be treated, the size of the membrane treatment facility becomes large. In order to increase the pressure, Depending on the effluent efficiency, it may be composed of multiple stages.

As such, fresh water produced in the water tank or supplied from the land is stored and then supplied to the ship as drinking water and equipment water.

At this time, the pipeline that moves the fresh water to the storage tank usually only serves to direct the fresh water to the storage tank. Since there is no function to control the flow rate or water pressure, piping damage may occur if clean water that does not fit the piping size is supplied.

In addition, when special regulations such as NMD requirements are applied, clean water needs to be treated for chlorine disinfection. If the flow rate and water pressure can not be controlled, it is difficult to control the amount of chlorine input, and chlorine can not be uniformly injected.

In order to solve the above-mentioned problem, the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a method of controlling the flow rate of clean water supplied from an outside of a ship or a water purifier in a ship, By injecting, it is intended to prevent piping damage, and to store and discharge stable sterilized fresh water.

According to an aspect of the present invention, there is provided a system for sterilizing and supplying water to a ship,

A fresh water tank storing the fresh water supplied from the outside of the ship or from the water generator in the ship; And

And a flow controller for controlling the flow rate of the fresh water supplied to the fresh water tank.

The flow rate control fresh water supply system includes a sterilizing agent injection unit for injecting a sterilizing agent into the fresh water stored in the fresh water tank, a fresh water supply flow channel for leading the fresh water to the fresh water tank, And a circulation pump provided in the circulation supply passage for pumping the fresh water.

The flow control unit may include a flow controller provided in the fresh water supply flow path to control the flow rate of the fresh water and a first flow meter for measuring a flow rate of the fresh water that has passed through the flow rate controller.

Characterized in that the bactericide comprises chlorine.

A second flow meter provided in the fresh water supply flow passage for measuring a flow rate of the fresh water and transmitting a flow rate signal; a chlorine sensor for receiving the flow rate signal from the second flow meter and supplying the sterilizing agent to the fresh water supply flow channel; And may include a feed pump.

The flow rate control fresh water supply system may further include a bypass flow channel connected to the fresh water supply flow channel to guide the fresh water to bypass the flow control unit.

The flow rate control fresh water supply system includes a first valve provided in the clean water supply passage in the direction of the inlet of the flow controller, a second valve provided in the fresh water supply passage in the direction of the outlet of the first flow meter, And a fourth valve for opening / closing the bypass passage.

The flow rate control fresh water supply system may further include a water quality measuring unit provided in the fresh water supply channel and measuring a chlorine content of the fresh water supplied with the sterilizing agent.

According to another aspect of the present invention, there is provided a method of sterilizing and supplying water to a ship,

The flow rate of the fresh water supplied from the outside of the ship or the water tank provided in the ship is measured while being supplied,

There is provided a flow rate control fresh water supplying method in which, when chlorine is input for sterilizing the fresh water, the flow rate of the fresh water is adjusted, and then the chlorine is inputted based on the adjusted flow rate of the fresh water.

The flow rate control fresh water supply system of the present invention is characterized in that the fresh water supplied from the outside of the ship or the water purifier in the ship is controlled in the fresh water tank by controlling the flow rate and the sanitizer is injected by regulating the flow rate of fresh water even in the case of sterilization disinfection, Damage can be prevented, and stably sterilized fresh water can be stored and discharged. Since the flow rate can be adjusted, it is possible to determine the optimum size of the piping and apply it in the designing stage of the ship. By regulating the flow rate of the fresh water constantly, the sterilizing agent can be uniformly injected into fresh water.

1 schematically shows a flow control fresh water supply system according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings.

1 schematically illustrates the concept of a flow control fresh water supply system according to an embodiment of the present invention.

As shown in FIG. 1, a flow rate control fresh water supply system according to an embodiment of the present invention is a system for sterilizing and supplying water to a ship. The system includes a fresh water storage tank for storing fresh water supplied from an outside of the ship, There is provided a flow rate control fresh water supply system including a tank 100 and a flow rate controller 200 for controlling the flow rate of fresh water supplied to the fresh water tank 100. [

The fresh water is stored in the fresh water tank 100 for supplying drinking water and various kinds of water necessary for the ship. Such clean water is supplied from the outside of the ship when the port is moored, or is desalinated from the water tank provided on the ship and stored in the fresh water tank 100.

However, if the Norwegian Maritime Directorate (NMD) requirement (regulations governing the Norwegian Shipping Department, which stipulates safety, health, environment, etc.) applies, Is a tank for sterilizing fresh water or discharging the water to the outside by using the water tank. The other is a tank for supplying various kinds of water into the vessel. The fresh water tank 100 of the present embodiment is an electron tank, and therefore, the present embodiment may further include a tank (not shown) and pipings (not shown) for supplying various kinds of water to the ship.

The water generator (not shown) of the ship may be a known fresh water generator such as a low pressure evaporative water freshwater generator or reverse osmosis water purifier. For example, in the case of the reverse osmosis pressure regulator, if the seawater is transferred to the high pressure pump and the high pressure of osmotic pressure is applied to the semipermeable membrane, only the fresh water contained in the seawater passes through the semi-tub and the saline is separated to produce fresh water. Such a fresh water generator includes a water intake facility for supplying seawater, a reverse osmosis facility for extracting fresh water from seawater using selective permeation of membrane, a chemical injection for maximizing pretreatment efficiency and maintenance of membrane performance, and a calcium carbonate addition and pH adjustment depending on water use And a post-treatment facility.

In this embodiment, the fresh water supplied from the outside of the ship or the water generator is guided to the fresh water tank 100 by controlling the flow rate constantly in the flow controller 200.

This embodiment is characterized in that a sterilizing agent injection unit 300 for injecting a sterilizing agent into fresh water stored in the fresh water tank 100, a fresh water supply flow path F1 for leading clean water to the fresh water tank 100, And a circulation pump 400 provided in the circulation supply passage F2 for pumping clean water. The circulation supply passage F2 may be provided in the circulation supply passage F2.

The fresh water generated from the water generator of the ship can be supplied to the fresh water supply flow path F1 in a sterilized and sterilized state by a sterilizing / disinfecting device (not shown) such as a filter or an ultraviolet sterilizing sterilizer. Fresh water introduced into the fresh water supply passage F1 is led to the fresh water tank 100 via the flow controller 200 and stored.

NMD requirement and the like, the fresh water stored in the fresh water tank 100 is pumped by the circulation pump 400 and flows along the circulation supply flow path F2 to the flow rate controller 200 And passes through the flow path in a state in which the flow rate is regulated, and receives the sterilizing agent necessary for meeting the special regulations from the sterilizing agent injection unit 300.

The fresh water tank 100 may be provided with a chlorine concentration measuring device for measuring the chlorine concentration of stored fresh water.

The flow controller 200 includes a flow controller 210 provided in the fresh water supply flow path F1 to control the flow rate of clean water and a first flow meter 220 for measuring the flow rate of clear water passing through the flow controller 210 .

The flow rate of the clear water supplied from the outside of the ship or the water supply device or the fresh water supplied from the fresh water tank 100 through the circulation supply flow path F2 is adjusted to a necessary range by the flow controller 210, (220).

The flow controller 210 may be a general flow control device.

The bactericide is characterized by containing chlorine.

The chlorine disinfectant needed to meet the special regulations such as the NMD requirement is injected for clean water sterilization purposes. If the NMD requirement is applied, the chlorine content in fresh water is 0.05 to 0.5 ppm.

The sterilizing agent injection unit 300 includes a second flow meter 310 provided in the fresh water supply flow path F1 to measure the flow rate of fresh water and to transmit a flow rate signal and a flow rate signal from the second flow meter 310, And a chlorine supply pump 320 for supplying a sterilizing agent to the fluid F1.

Since the chlorine supply pump 320 has a limited range flow rate, the flow controller 210 adjusts the flow rate of clean water in consideration of the limit flow rate of the pump, measures the flow rate of fresh water in the second flow meter 310, The chlorine supply pump 320 supplies the chlorine sterilizing agent to the fresh water supply flow path F1.

The present embodiment may further include a bypass flow path F3 connected to the fresh water supply flow path F1 to guide fresh water to bypass the flow rate control unit 200. [

The bypass flow path F3 is mainly used to discharge fresh water stored in the fresh water tank 100. [ However, it may be used to bypass the flow controller 210 and supply clean water to the fresh water tank 100. This is possible when the fresh water is supplied from the off-shore and the flow rate of fresh water is small and it is not necessary to go through the flow controller 210.

The present embodiment has a first valve 510 provided in the fresh water supply flow path F1 in the direction of the inlet of the flow controller 210 and a second valve 520 provided in the fresh water supply flow path F1 in the direction of the outlet of the first flow meter, A third valve 530 for opening and closing the circulation supply passage F2 and a fourth valve 540 for opening and closing the bypass passage F3.

When the first valve 510 and the second valve 520 are opened when fresh water is supplied to the fresh water tank 100 from the outside of the ship or the water purifier, the fresh water flows through the fresh water tank 100 ).

When the chlorine concentration in the fresh water in the fresh water tank 100 is lower than the reference value, the third valve 530 is opened and the first valve 510 is shut off, the fresh water flows through the circulation supply passage F2, The chlorine sterilizing agent is supplied from the sterilizing agent injecting unit 300 through the flow rate controller 200 of FIG.

When the fresh water in the fresh water tank 100 is discharged, the first valve 510 and the second valve 520 are shut off and the third valve 530 and the fourth valve 540 are opened, Passes through the bypass flow path F3 via the flow path F2 and the flow rate control section 200, and is discharged outboard along the fresh water supply flow path F1.

The present embodiment may further include a water quality measuring unit 600 provided in the fresh water supply passage F1 and measuring the chlorine content of fresh water supplied with the sterilizing agent.

The quality of the fresh water supplied through the fresh water supply passage F1 and supplied with the chlorine sterilizing agent from the chlorine supply pump 320 is checked by the water quality measuring unit 600 to determine whether or not the chlorine content contained in the fresh water satisfies the special regulations . For example, the chlorine content required for NMD is 0.05 to 0.5 ppm. The water quality measuring unit 600 can measure the water quality by collecting the fresh water sample through the manually operated valve or the water quality can be measured by the automated system by applying the chlorine concentration measuring instrument and the electric valve.

According to another aspect of the present invention, there is provided a method of sterilizing and supplying water to a ship, comprising the steps of supplying and storing the flow rate of fresh water supplied from the outside of the ship or the water tank in the ship, There is provided a flow rate control fresh water supply method for controlling the flow rate of fresh water and then introducing chlorine based on the flow rate of the adjusted fresh water.

As described above, the flow rate control fresh water supply system according to the present embodiment controls the flow rate of fresh water supplied from the outside of the ship or from the water purifier in the ship to the fresh water tank 100, It is possible to prevent piping damage due to the introduction of clear water exceeding the piping capacity and to store and discharge stably sterilized fresh water through the flow rate control.

Since the flow rate can be adjusted, the optimal piping size can be determined, and the optimized piping can be applied to the ship at the design stage of the ship.

In addition, since the flow rate of the fresh water can be controlled to uniformly inject the bactericide into the fresh water, it is possible to solve the problem that the circulating pump 400 must be driven excessively until the desired chlorine concentration is obtained when chlorine is injected unevenly have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

F1: fresh water supply flow
F2: circulating supply flow
F3: Bypass flow
100: fresh water tank
200:
210: Flow controller
220: first flow meter
300: Disinfectant injection part
310: second flow meter
320: Chlorine feed pump
400: circulation pump
510: first valve
520: second valve
530: third valve
540: fourth valve
600: Water quality measurement unit

Claims (9)

A system for sterilizing and supplying water to a ship,
A fresh water tank storing the fresh water supplied from the outside of the ship or from the water generator in the ship;
A flow rate controller for controlling the flow rate of the fresh water supplied to the fresh water tank;
A sterilizing agent injecting unit injecting a sterilizing agent into the fresh water stored in the fresh water tank;
A fresh water supply passage for leading the fresh water to the fresh water tank;
A circulation supply flow path for leading the fresh water from the fresh water tank to the flow rate control section;
A circulation pump provided in the circulation supply passage for pumping the fresh water;
A second flow meter provided in the fresh water supply flow passage for measuring a flow rate of the fresh water and transmitting a flow rate signal;
A chlorine supply pump for receiving the flow rate signal from the second flow meter and supplying the sterilizing agent to the fresh water supply channel; And
And a bypass flow channel connected to the fresh water supply flow channel to guide the fresh water to bypass the flow control unit. delete 2. The apparatus of claim 1, wherein the flow controller
A flow controller provided in the fresh water supply flow path to control the flow rate of the fresh water; And
And a first flow meter for measuring the flow rate of the fresh water passing through the flow controller. The method of claim 3,
Characterized in that the bactericide comprises chlorine. delete delete The method according to claim 1,
A first valve provided in the fresh water supply passage in an inlet direction of the flow control unit;
A second valve provided in the fresh water supply flow passage in an outlet direction of the first flow meter;
A third valve for opening / closing the circulation supply passage; And
And a fourth valve for opening and closing the bypass passage. The method according to claim 1,
And a water quality measuring unit provided in the fresh water supply channel and measuring a chlorine content of the fresh water supplied with the sterilizing agent. delete

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